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What’s the MATTER: Specific Heat of Matter

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Presentation on theme: "What’s the MATTER: Specific Heat of Matter"— Presentation transcript:

1 What’s the MATTER: Specific Heat of Matter

2 Matter, Specific Heat of Matter At the conclusion of our time together, you should be able to:
Define specific heat Use specific heat to determine energy changes

3 Exothermic and Endothermic Processes
Essentially all chemical reactions and changes in physical state involve either: release of heat, or absorption of heat

4 Exothermic and Endothermic Processes
In studying heat changes, think of defining these two parts: the system - the part of the universe on which you focus your attention the surroundings - includes everything else in the universe

5 Exothermic and Endothermic Processes
Together, the system and it’s surroundings constitute the universe Thermochemistry is concerned with the flow of heat from the system to it’s surroundings, and vice-versa.

6 Exothermic and Endothermic Processes
Heat flowing out of a system into it’s surroundings: defined as negative q has a negative value called exothermic system loses heat (gets cooler) as the surroundings heat up

7 Exothermic and Endothermic Processes
Heat flowing into a system from its surroundings: defined as positive q has a positive value called endothermic system gains heat (gets warmer) as the surroundings cool down

8 Energy Transformations
Heat - represented by “q”, is energy that transfers from one object to another, because of a temperature difference between them. only changes can be detected! flows from warmer  cooler object

9 Units for Measuring Heat Flow
A calorie is defined as the quantity of heat needed to raise the temperature of 1 g of pure water 1 oC. Used except when referring to food a Calorie, (written with a capital C), always refers to the energy in food 1 Calorie = 1 kilocalorie = 1000 cal.

10 Units for Measuring Heat Flow
The calorie is also related to the Joule, the SI unit of heat and energy named after James Prescott Joule 4.184 J = 1 cal Heat Capacity - the amount of heat needed to increase the temperature of an object exactly 1 oC Depends on both the object’s mass and its chemical composition

11 Heat Capacity and Specific Heat
Specific Heat Capacity (abbreviated “C”) - the amount of heat it takes to raise the temperature of 1 gram of the substance by 1 oC often called simply “Specific Heat” Water has a HUGE value, when it is compared to other chemicals

12 Note the tremendous difference in Specific Heat.
Water’s value is VERY HIGH.

13 Heat Capacity and Specific Heat
For water, C = 4.18 J/(g oC) in Joules, and C = 1.00 cal/(g oC) in calories. Thus, for water: it takes a long time to heat up, and it takes a long time to cool off! Water is used as a coolant!

14 Heat Capacity and Specific Heat
To calculate, use the formula: q = mass (in grams) x T x C heat is abbreviated as “q” T = change in temperature C = Specific Heat Units are either: J/(g oC) or cal/(g oC)

15 Practice #1 q = cp x m x t: q = 59.912 J cp = x m = 36.359 g
t = oC J = (x)( g)(152.0 oC) = J/g oC

16 Practice #2 q = cp x m x t: q = -800. J cp = 0.4210 J/g oC
m = g t = (x – oC) -800. J = J/goC ( g)(x – oC) = 30.81x – 3142 = x = oC

17 Matter, Specific Heat of Matter Let’s see if you can :
Define specific heat Use specific heat to determine energy changes

18 Define Specific Heat Specific Heat – the amount of energy required to raise the temperature of one gram of a substance by one Celsius degree or one Kelvin

19 Practice #3 q = cp x m x t: q = -185.4 J cp = 0.440 J/g oC m = x g
t = oC J = (0.440 J/goC )(x)(-1475 oC) J = -649 Jg = g

20 Practice #4 q = cp x m x t: q = x J cp = 0.0335 cal/goC (4.184 J/cal)
m = g t = -51.5oC x = ( J/goC )( g)(-51.5 oC) = x 103 J

21 Calorimetry Calorimetry - the measurement of the heat into or out of a system for chemical and physical processes. Based on the fact that the heat released = the heat absorbed The device used to measure the absorption or release of heat in chemical or physical processes is called a “Calorimeter”

22 Calorimetry Foam cups are excellent heat insulators, and are commonly used as simple calorimeters under constant pressure. For systems at constant pressure, the “heat content” is the same as a property called Enthalpy (H) of the system (They are good because they are well-insulated.)

23 A foam cup calorimeter – here, two cups are nestled together for better insulation

24 Calorimetry Changes in enthalpy = H
q = H These terms will be used interchangeably in this textbook Thus, q = H = m x C x T H is negative for an exothermic reaction H is positive for an endothermic reaction

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